This compendium describes the major production routes of the six most relevant iodine radio isotopes and the various methods of labeling molecules of biological, diagnostic or pharmaceutical interest with them. The chapters describe the basic reaction mechanisms, and the influence of iodine introduction on physical/chemical and pharmacological properties. They include examples of important reaction pathways for the preparation of radio-iodine compounds.
This renowned work is derived from the authors' acclaimed national review course ("Physics of Medical Imaging") at the University of California-Davis for radiology residents. The text is a guide to the fundamental principles of medical imaging physics, radiation protection and radiation biology, with complex topics presented in the clear and concise manner and style for which these authors are known. Coverage includes the production, characteristics and interactions of ionizing radiation used in medical imaging and the imaging modalities in which they are used, including radiography, mammography, fluoroscopy, computed tomography and nuclear medicine. Special attention is paid to optimizing patient dose in each of these modalities. Sections of the book address topics common to all forms of diagnostic imaging, including image quality and medical informatics as well as the non-ionizing medical imaging modalities of MRI and ultrasound. The basic science important to nuclear imaging, including the nature and production of radioactivity, internal dosimetry and radiation detection and measurement, are presented clearly and concisely. Current concepts in the fields of radiation biology and radiation protection relevant to medical imaging, and a number of helpful appendices complete this comprehensive textbook. The text is enhanced by numerous full color charts, tables, images and superb illustrations that reinforce central concepts. The book is ideal for medical imaging professionals, and teachers and students in medical physics and biomedical engineering. Radiology residents will find this text especially useful in bolstering their understanding of imaging physics and related topics prior to board exams.
Susan Jones had been the CEO of Investments Unlimited, Inc. (IUI) for five years, a financial institution that has successfully navigated their digital transformation. She is quick on her feet and is trusted by the board. But right now—although you can't tell from her demeanor—she was panicking. Today, IUI received notice from bank regulators concerning their unsatisfactory audit and compliance practices. If they failed to address the regulators' concerns within the year, the company could go up in smoke. She didn't understand. How had her team let this happen? How had she let this happen? Over the past several years, IUI had executed a digital transformation strategy following the business accelerating principles of Agile and DevOps. By any metric they had seemingly done things right. Feedback from customers was astounding and conversion rates for new accounts was growing faster than ever. But along the way IUIs manual governance process had become inundated with friction, frustration, and failure for the teams attempting to deliver value for their organizations. Now, it's all hands on deck for a cross-functional team of executives and engineers to develop a modern automated governance process that satisfies regulators without slowing the company's ability to meet customer demands and compete in the market. In the vein of bestselling titles The Phoenix Project and The Unicorn Project, Investments Unlimited helps organizations radically rethink how they handle audit, compliance, and security for their software systems. By introducing concepts, tools, and ideas to reimagine governance, this book catalyzes a more humane way to enable high-velocity software delivery that inspires trust and is inherently more secure.
Widely regarded as the cornerstone text in the field, the successful series of editions continues to follow the tradition of a clear and comprehensive presentation of the physical principles and operational aspects of medical imaging. The Essential Physics of Medical Imaging, 4th Edition, is a coherent and thorough compendium of the fundamental principles of the physics, radiation protection, and radiation biology that underlie the practice and profession of medical imaging. Distinguished scientists and educators from the University of California, Davis, provide up-to-date, readable information on the production, characteristics, and interactions of non-ionizing and ionizing radiation, magnetic fields and ultrasound used in medical imaging and the imaging modalities in which they are used, including radiography, mammography, fluoroscopy, computed tomography, magnetic resonance, ultrasound, and nuclear medicine. This vibrant, full-color text is enhanced by more than 1,000 images, charts, and graphs, including hundreds of new illustrations. This text is a must-have resource for medical imaging professionals, radiology residents who are preparing for Core Exams, and teachers and students in medical physics and biomedical engineering.
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